Rotator Cuff Tear Clinical Trial
Official title:
A Prospective, Randomized Evaluation of Bioinductive Augmentation for High Risk Rotator Cuff Tears
The rotator cuff is a complex of 4 tendons that aid in stabilizing and moving the shoulder. Rotator cuff tears are common shoulder injuries in adults. While some tears can be managed by physiotherapy, other rotator cuff tears will require surgery. On occasion, when a person has had a large rotator cuff tear for a long period of time, the tear can grow and the tendons retract. This effect makes it very difficult for the tendons to be repaired to their normal spot. The most common surgical technique employed to manage a tear that cannot be repaired is to remove all unhealthy, inflamed scar tissue in a process called debridement. Often there is a bone spur that must be shaved down as well. This can help to reduce the pain in the patient as well as assist the range of motion slightly but will not prevent the tear becoming larger. This will also not prevent a re-tear of the tendons. Recently, surgeons have begun using a variety of materials to help reconstruct torn rotator cuffs. New grafts made of highly purified collagen from bovine tendons has been used to bridge large gaps in the tendons, and repair the tendon back to the bone. This technique has been done many times by skilled shoulder surgeons in Canada, the United States and around the world. Initial reports by surgeons who do this procedure show that the patients have less pain and better range of motion than before the surgery. Shoulder surgeons do not know which is the better treatment for large rotator cuff tears. Both treatments (graft and debridement) can reduce pain and improve movement of the shoulder. The purpose of this study is to help determine whether patients who receive an allograft have better function and fewer re-tear at one year after surgery than those who received a debridement alone.
Rotator cuff injuries are among the most common soft tissue injuries of the shoulder. Characterized by insidious onset of progressive pain and weakness, with concomitant loss of range of motion, patients with pathological conditions of the rotator cuff are often unable to associate the onset of symptoms with a specific traumatic event. Loss of continuity of the rotator cuff can be described in several ways, including acute or chronic, partial or full-thickness and traumatic or degenerative. For this study, only patients with radiography confirmed large rotator cuff tears (> 3 cm) resulting from trauma and/or degeneration will be observed. Historically, many operative procedures have been used by surgeons in the treatment of large rotator cuff tears including open rotator cuff repair, mini- open rotator cuff repair, arthroscopic rotator cuff repair, bridging techniques, debridement, arthroscopic rotator cuff repair with acromioplasty, arthroscopic rotator cuff repair without acromioplasty, surgical augmentation, debridement etc. While the surgical repair of large rotator cuff tears has resulted in pain relief and improved function, the re-tear rate (55%-94%) has remained high despite advances in repair techniques. The re-tear rates correlate with the size of the rotator cuff tear as well as with other factors such as muscle atrophy, tendon quality, and postoperative rehabilitation protocol. With an effort to improve healing rates, surgeons have used various biologic tissues to either substitute for or augment the repair of the rotator cuff. These tissues include the patients' biceps tendon, fascia latae allografts and autografts, freeze-dried rotator cuff allografts, and synthetic materials such as polypropylene mesh.1 A new scaffold material made of highly purified, type I collagen from bovine tendons has shown great promise as a bioinductive implant that helps induce the formation of new tendon-like tissue over the surface of partial- or full-thickness rotator cuff tears.This new graft material has the benefit of decreasing surgery time, as it takes a few minutes to put in place, while increasing healing and tendon thickness. The investigators hypothesize that arthroscopic augmentation using a bioinductive collagen implant will have superior outcomes in terms of increasing healing, thereby decreasing re-tear rate, as compared to participants who are treated with the current gold standard treatment (consisting of debridement, acromioplasty, and rotator cuff repair). The investigators hypothesize that the participants with graft augment will have decreased pain both during the early recovery phase and two years post-operatively as compared to the non-augmented group. Additionally, the investigators hypothesize that participants with the collagen scaffold will have better outcome scores at two years, as compared to the non-augmented group. ;
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